Retrofit Catch Basin for use in Storm Water Management Practice

ABSTRACT

A catch basin retrofit that allows stormwater to be diverted from an existing storm sewer to an alternative stormwater management practice (SMP), while maintaining functionality of the catch basin as an overflow device for the alternative SMP.

FIELD OF THE INVENTION

The present invention relates to the field of stormwater management. More particularly it is an adaptation to existing conventional stormwater infrastructure to retrofit for an alternative SMP. It is particularly applicable where more modern “green infrastructure” technologies are being incorporated into existing urban drainage systems.

BACKGROUND OF THE INVENTION

Urban stormwater management has historically involved collection of rainwater and conveyance via piping to either directly to receiving waters or through via wastewater treatment plants (WWTPs). In dozens of cities in the United States such conveyance has occurred through combined sewer systems (Ms), which convey both stormwater and sewerage to WWTPs. Such CSSs are typically equipped with overflow devices that allow discharge directly to receiving waters from the sewer system when the sewer capacity is exceeded. Such combined sewer overflow (CSO) events contain not only stormwater but also untreated human and industrial waste, toxic materials, and debris. They are a major water pollution concern for the approximately 772 cities in the U.S. that have these CSSs.

Many communities, including New York, N.Y.; Philadelphia, Pa., Kansas City, Mo. and Syracuse, N.Y. are implementing green infrastructure (“GI”) techniques. GI is an approach that communities can choose to maintain healthy waters, provide multiple environmental benefits and support sustainable communities. Unlike single-purpose gray stormwater infrastructure, which uses pipes to dispose of rainwater, green infrastructure uses vegetation and soil to manage rainwater where it falls. By weaving natural processes into the urban constructed environment, green infrastructure provides not only stormwater management, but also flood mitigation, air quality management, and more. It is important to note that GI is a volume-based approach to stormwater management, not typically amenable to managing peak flows associated with storm events. Thus, where GI is being incorporated into urban infrastructure, it is usually required by the locality to incorporate an overflow outlet to provide for drainage during extreme events.

A component of conventional “gray” stormwater management systems for conveying street runoff to sewer systems are often street side catch basins 1 an example of which is depicted on FIG. 1. As will further be seen in FIG. 1 these systems consist of an underground constructed sump 2 covered by a traffic-rated frame and grate 3 an outlet pipe 4 connected to a sewer system. Stormwater enters the catch basin via gravity either as sheet-flow from the street, or is conveyed along the adjoining curb 5 as can be seen in FIG. 1. An example of the prior art frame and grate assembly 3 is depicted on FIG. 2. In FIG. 2, the assembly typically consists of a traffic-rated grate 6 that allows stormwater to enter the catch basin with the slats of the grate serving to screen the waters of “floatables” (i.e. large floating materials) that would otherwise enter the catch basin. The slats of the grate are directed orthogonal to the direction of traffic, which in combination with its construction to meet vehicle traffic standards, allows vehicular traffic to pass over safely and without damage to the device. The grate is set inside a compatible, traffic-rated frame 7, as shown in FIG. 2, that positions and mounts the assembly to the catch basin sump and the surrounding road and curb. Because the device operates by gravity, the catch basin is typically positioned at a locally minimum elevation in the road segment or city block.

A common GI technique to managing street runoff is through the use of street-side bioretention or tree boxes as is depicted in FIGS. 3 and 4). These techniques usually require the use of constructed curb inlets as shown in FIG. 5, consisting of transitions 8 from granite curbing 9 to form an opening in the curb 9 that allows water from the street 10 to enter the GI measure located on the opposite side of the curb 9. The GI measure is also typically equipped with overflow devices to allow storm events to be diverted from the GI measure to the storm sewer system. Where these techniques are being adapted to existing urban drainage conditions, curb Inlets and overflow devices are necessarily constructed as retrofits to the existing infrastructure. Construction of such overflow devices is typically a costly, invasive endeavor involving setting and plumbing of pre-cast or other manufactured overflow catch basin, plumbed into existing sewer systems located in the public street or right-of-way as discussed below.

Because, as discussed above, the location of stormwater catch basins are configured at low points in the streetscape in order to effectively capture stormwater runoff via gravity, retrofit curb inlets might be positioned on each side of the existing catch basin. This design allows effective capture of flow along the curbline 11 and 12 to the existing catch basin as is exemplified in FIG. 6. As discussed above, a mechanism for managing overflows is a necessary component of these GI measures and this is accomplished under this curb inlet configuration by maintaining the existing streetside catch basin in place so that water may back up and out of the bioretention area 13 into the catch basin during extreme storm events. This configuration does not, however, optimize stormwater collection as water that routs directly to the plane of the catch basin from the street 14 (i.e. not along the curbline) will continue to enter the catch basin and thus the sewer during rain events.

An alternative design involves the decommissioning and replacement of the existing catch basin with a curb inlet. This configuration effectively captures all runoff (for purposes of this invention, runoff, storm-water runoff and street runoff will be used interchangeably as would be understood by those skilled in the art) to the existing catch basin, up to the retentive capacity of the SMP, but a new overflow structure is required to accommodate runoff exceeding design events. An example of this prior art is shown on FIG. 7. Such overflow structures are often precast structures 15 equipped with a slotted opening 16 serving as the overflow entry weir, which must be plumbed into the existing storm sewer 17 system with underground pipes 18.

SUMMARY OF THE INVENTION

While the aforementioned prior art catch basin designs and associated collection frames and grate fulfills certain objectives and requirements, a need exists for a more efficient, less expensive means for retrofitting such existing catch basins/rack and grate systems for adoption of alternative SMPs, particularly as it relates to GI. In one aspect, the current invention seeks to solve the problems associated with the prior art by utilizing a rack and covered grate assembly that will effectively divert runoff to a GI measure through a common curb inlet structure while allowing the existing catch basin to serve as an overflow device, and that also screens debris from the catch basin as effectively as the replaced system. In one aspect, the benefit of the current invention is the avoided cost of the dedicated additional overflow structure and the greater efficiency of collection of the curb inlet.

In the various figures, the prior art and SMP/GI technologies are illustrated as well as the exemplary features of the invention are demonstrated so that the detailed description that follows may be better understood, and that the present contribution to the art may be better appreciated. There are additional features of the invention that will be described hereinafter and which will form the subject matter of the claims appended hereto and in no way should the following figures and examples limit the scope of the invention as would be understood and appreciated by those skilled in the art. Finally it will be understood that the aforementioned references are incorporated by reference.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows a cross sectional view of a typical urban street side catch basin with associated horizontal rack and grate assembly.

FIG. 2 is a plan view of a detailed drawing of a catch basin frame and rack assembly.

FIG. 3 shows a cross sectional view of a curbside bioretention area that might be used for management of runoff from an urban roadway.

FIG. 4 is an exemplary cross sectional representation of a “tree box,” with a similar function for stormwater management.

FIG. 5 is a cross sectional view of a typical curb inlet used to divert runoff to street/curbside SMP

FIG. 6 is a plan view of a possible curb inlet configuration retrofitted around an existing stormwater catch basin

FIG. 7 is a profile view of the prior art pre-cast concrete overflow structure.

FIG. 8 is an exploded, axinometric representation of the catch basin and diversion assembly, including trash screen, cover plate and structural frame as envisioned by the current invention.

FIG. 9 is a plan and profile view of the exemplary invention as installed.

FIG. 10 is a profile view of the exemplary invention oriented along its longitudinal axis.

FIG. 11 is a profile view of the exemplary invention oriented along its lateral axis.

FIG. 12 shows a cross sectional view of the exemplary grate and cover portion of the storm water management practice system.

DETAILED DESCRIPTION

FIG. 8 shows the exemplary embodiment of the claimed invention. The exemplary diversion and overflow assembly generally consists of a grate 19 and cover plate 20 set in a frame 21. The grate and frame portion of the assembly is represented In FIG. 2 and is typical of a stormwater collection and trash screen device as is readily understood by those skilled in the art.

FIG. 9 depicts the frame portion of the claimed invention in plain view. On three sides, the frame is similar to the prior art catch basin frame by the presence of the angle material forming much of the strength of the assembly. The invention is distinguished, in part, from the conventional frame by the absence of the vertical from the angle forming the curbside edge 29 of the frame assembly 30. This portion of the frame consists of the horizontal member 23 only. The absence of the vertical portion of the curbside angle will allow the claimed invention to serve its overflow function by allowing flow to pass from the SMP to the existing catch basin beneath the cover plate of the invention via the curb inlet.

FIG. 10 depicts the frame portion of the claimed invention In profile view. The invention members shown 24 are the angle portions of the frame, with the frame oriented along the curbline. For purposes of clarity, one of skill in the art will understand that “curbline and “curbside edge” can be used interchangeably.

FIG. 11 depicts a second profile view of the frame portion of the claimed invention with the angle portion of the assembly 24 located on the street-side of the invention and the flat portion of the frame portion of the assembly 25 located on the curbside of the invention abutting the curb inlet.

FIG. 12 shows the grate 27 and cover portion 28 of the claimed invention in profile as it would appear from the stormwater management practice toward the street. Similar to the frame portion of the claimed invention described above, the grate of the claimed invention Is distinguished from a conventional grate by the absence of curbside lateral edge that would otherwise contact the curbside edge of the frame. Again similar to the adaptation for the frame described above, the absence of a vertical edge parallel to the curb will allow the claimed invention to serve its overflow function by allowing flow to pass from the SMP to the existing catch basin beneath the cover plate of the invention via the curb inlet. The grate slats 27 oriented normal to the plane of the curb and extending over the lateral curbside edge of the frame will function as the trash screen, the functional equivalent of the grate associated with the conventional catch basin grate (FIG. 2). The cover plate 27 of the claimed invention extends beyond the grate and frame as necessary and over the curb inlet threshold in order to effectively divert runoff to the SMP. The runoff occurs as sheet-flow, which is important to the functionality of vegetated GI such as a bioretention area.

Of course it will be understood by those skilled in the art that the slots in the grate can be of differing dimensions and spacing depending on the screening objectives, and that the frame, grate and cover can be constructed of different materials including but not limited to steel, galvanized steel, iron, galvanized iron, aluminum, or synthetic materials such as polyvinyl chloride (PVC). It will also be understood by those skilled in the art that cover can be extended varying lengths into the SMP and equipped with a drip edge or other appurtenances to effect proper flow or to dissipate energy as flow occurs from the invention to the SMP. It will further be understood by those skilled in the art that the invention may be of different sizes and configurations to adapt to the many various designs of stormwater catch basins whether they may be located directly under the stormwater frame and grate as described above, or adjoining the assembly, located adjacent to the street or lot.

Referring back to the exemplary embodiment of FIGS. 7 and 8, a catch basin diversion system is depicted wherein, an existing street-side catch basin 17 is retrofitted with the claimed invention so that stormwater, instead of entering the catch basin 17 and then the public sewer system, is diverted via a cover plate 19 to an alternative SMP (FIGS. 3 and 4) The plate 19 is situated above the level of the curb inlet (FIG. 5) elevation by a grate 20 that both provides the opening to the catch basin 17 so that backflow to the catch basin 17 from the SMP (FIGS. 4 and 5) can occur during overflow events, and prevents floatables and other debris from entering the catch basin.

As conventional catch basin frame and grate assemblies are pre-manufactured in standard sizes, so would the claimed Invention be fabricated to a number of common dimensions. The retrofit of existing installations would be performed by simply lifting out the existing assembly then placing the claimed invention while constructing the curb inlet. 

1. A stormwater diversion and overflow device, the device comprising: a grate assembly, the grate assembly comprising a stormwater diversion element configured to divert stormwater runoff off a street through a curb inlet structure shared with an existing street-side catch basin to an alternative stormwater management practice system before the stormwater runoff enters the existing street-side catch basin, the grate assembly defining an opening configured to pass stormwater runoff from the alternative stormwater management practice system to the existing street-side catch basin.
 2. (canceled)
 3. The stormwater diversion and overflow device of claim 1, wherein said stormwater diversion and overflow device is configured to be retrofitted to the existing street-side catch basin.
 4. The stormwater diversion and overflow device of claim 1, wherein the grate assembly further comprises a grate and a cover portion, the cover portion comprising the stormwater diversion element.
 5. The stormwater diversion and overflow device of claim 4, wherein said grate does not have a curbside lateral edge that would otherwise contact a curbside edge of a conventional frame assembly.
 6. The stormwater diversion and overflow device of claim 4, wherein said grate comprises a curbside lateral edge, said curbside lateral edge having no edge that would be oriented vertically when the stormwater diversion and overflow device is installed at an existing street-side catch basin.
 7. The stormwater diversion and overflow device of claim 4, wherein said grate assembly is configured to replace an existing grate structure over the existing street-side catch basin and wherein said irate assembly further comprises a horizontal member configured to pass, in the installed position over the existing street-side catch basin, flowing runoff water through the curb inlet and the stormwater diversion and overflow device to the existing catch basin beneath the cover portion.
 8. (canceled)
 9. The stormwater diversion and overflow device of claim 4, wherein the cover portion further comprises a plate.
 10. The stormwater diversion and overflow device of claim 9, wherein the device further comprises a structural frame into which the grate assembly is configured to set.
 11. The stormwater diversion and overflow device of claim 10, wherein the grate is in the structural frame, the plate is on the grate, and the plate extends slightly beyond the grate and the structural frame by an amount sufficient to carry the stormwater runoff to the stormwater management practice system.
 12. The stormwater diversion and overflow device of claim 4, wherein said grate further comprises grate slats, the grate slats being suitable to collect debris and allow stormwater runoff to pass through to the stormwater management practice system.
 13. The stormwater diversion and overflow device of claim 10, wherein the cover plate is equipped with a drip edge to facilitate distribution of flow to the stormwater management practice.
 14. A stormwater diversion and overflow device, the device comprising: a frame; and a cover, the cover set in the frame, the cover extending beyond the frame on at least one side an amount sufficient to carry stormwater runoff to a stormwater management practice system.
 15. The stormwater diversion and overflow device of claim 14, wherein the frame comprises an angle member having a first portion extending less than 360 degrees around a perimeter of the frame, defining an opening through which fluid can flow.
 16. The stormwater diversion and overflow device of claim 15, wherein the first portion is aligned vertically when the frame is installed.
 17. The stormwater diversion and overflow device of claim 16, wherein the angle member comprises a second portion, the second portion being aligned horizontally when the frame is installed, the second portion connected perpendicularly to the first portion.
 18. The stormwater diversion and overflow device of claim 16, wherein the second portion extends 360 degrees around the perimeter of the frame.
 19. The stormwater diversion and overflow device of claim 17, wherein the second portion comprises an extension on each of four sides of the perimeter of the frame, each extension being perpendicular to each adjacent extension.
 20. The stormwater diversion and overflow device of claim 15, wherein the first portion extends on three sides of the perimeter of the frame, defining the opening on the fourth side of the perimeter of the frame.
 21. The stormwater diversion and overflow device of claim 14, wherein the cover at least partially defines an opening between the cover and the frame, the opening configured to allow stormwater to pass from the stormwater management practice system to a catch basin.
 22. The stormwater diversion and overflow device of claim 14, wherein the device further comprises a grate set in the frame adjacent to the cover, the grate further comprising: a vertical portion comprising at least a portion of a perimeter of the grate; and a plurality of parallel slats having a first end and a second end, the parallel slats extending from the vertical portion at the first end, at least one of the slats remaining free and unconnected at the second end.
 23. The stormwater diversion and overflow device of claim 14, wherein the grate comprises: a vertical portion comprising at least a portion of a perimeter of the grate, the vertical portion defining an opening in the perimeter of the grate through which fluid can flow.
 24. A catch basin diversion system, the system comprising: the stormwater diversion and overflow device recited in claim 14, the stormwater diversion and overflow device being installed in a street; a catch basin under the street; and an alternative stormwater management practice positioned adjacent to and off the street.
 25. A method of installing a stormwater diversion and overflow device, wherein a frame and grate functioning as an opening for stormwater runoff to enter a catch basin is replaced with the stormwater diversion and overflow device to divert stormwater runoff to an alternative stormwater management practice device and redirect excess stormwater runoff exceeding the capacity of the alternative stormwater management practice device back to the catch basin, the stormwater diversion and overflow device comprising: a diversion and overflow frame; and a diversion and overflow cover, the frame comprising a perimeter member having a first portion extending less than 360 degrees around a perimeter of the frame, defining an opening through which fluid can flow, the cover extending beyond the frame on at least one side an amount sufficient o carry stormwater runoff to a storm water management practice system, the cover at least partially defining an opening between the cover and the frame, the opening configured to allow stormwater to pass from the stormwater management practice system to the catch basin.
 26. The method of claim 25, wherein the stormwater diversion and overflow device further comprises an overflow grate, the overflow grate comprising: a vertical portion which comprises at least a portion of a perimeter of the grate; and at least one slat extending from a first end connected to the vertical portion to a second, unconnected end, the vertical portion at least partially defining an opening in the perimeter of the grate through which fluid can flow. 